import logging
import tempfile

from sqlalchemy import false, or_

from galaxy import util
from galaxy.util import inflector
from galaxy.web.form_builder import SelectField
from tool_shed.metadata import metadata_generator
from tool_shed.repository_types import util as rt_util
from tool_shed.repository_types.metadata import TipOnly
from tool_shed.util import (basic_util, common_util, hg_util, metadata_util,
    repository_util, shed_util_common as suc, tool_util)

log = logging.getLogger(__name__)


class RepositoryMetadataManager(metadata_generator.MetadataGenerator):

    def __init__(self, app, user, repository=None, changeset_revision=None, repository_clone_url=None,
                 shed_config_dict=None, relative_install_dir=None, repository_files_dir=None,
                 resetting_all_metadata_on_repository=False, updating_installed_repository=False,
                 persist=False, metadata_dict=None):
        super(RepositoryMetadataManager, self).__init__(app, repository, changeset_revision,
                                                        repository_clone_url, shed_config_dict,
                                                        relative_install_dir, repository_files_dir,
                                                        resetting_all_metadata_on_repository,
                                                        updating_installed_repository, persist,
                                                        metadata_dict=metadata_dict, user=user)
        self.app = app
        self.user = user
        # Repository metadata comparisons for changeset revisions.
        self.EQUAL = 'equal'
        self.NO_METADATA = 'no metadata'
        self.NOT_EQUAL_AND_NOT_SUBSET = 'not equal and not subset'
        self.SUBSET = 'subset'
        self.SUBSET_VALUES = [self.EQUAL, self.SUBSET]

    def add_tool_versions(self, id, repository_metadata, changeset_revisions):
        # Build a dictionary of { 'tool id' : 'parent tool id' } pairs for each tool in repository_metadata.
        metadata = repository_metadata.metadata
        tool_versions_dict = {}
        for tool_dict in metadata.get('tools', []):
            # We have at least 2 changeset revisions to compare tool guids and tool ids.
            parent_id = self.get_parent_id(id,
                                           tool_dict['id'],
                                           tool_dict['version'],
                                           tool_dict['guid'],
                                           changeset_revisions)
            tool_versions_dict[tool_dict['guid']] = parent_id
        if tool_versions_dict:
            repository_metadata.tool_versions = tool_versions_dict
            self.sa_session.add(repository_metadata)
            self.sa_session.flush()

    def build_repository_ids_select_field(self, name='repository_ids', multiple=True, display='checkboxes',
                                          my_writable=False):
        """Generate the current list of repositories for resetting metadata."""
        repositories_select_field = SelectField(name=name, multiple=multiple, display=display)
        query = self.get_query_for_setting_metadata_on_repositories(my_writable=my_writable, order=True)
        for repository in query:
            owner = str(repository.user.username)
            option_label = '%s (%s)' % (str(repository.name), owner)
            option_value = '%s' % self.app.security.encode_id(repository.id)
            repositories_select_field.add_option(option_label, option_value)
        return repositories_select_field

    def clean_repository_metadata(self, changeset_revisions):
        # Delete all repository_metadata records associated with the repository that have
        # a changeset_revision that is not in changeset_revisions.  We sometimes see multiple
        # records with the same changeset revision value - no idea how this happens. We'll
        # assume we can delete the older records, so we'll order by update_time descending and
        # delete records that have the same changeset_revision we come across later.
        changeset_revisions_checked = []
        for repository_metadata in \
            self.sa_session.query(self.app.model.RepositoryMetadata) \
                           .filter(self.app.model.RepositoryMetadata.table.c.repository_id == self.repository.id) \
                           .order_by(self.app.model.RepositoryMetadata.table.c.changeset_revision,
                                     self.app.model.RepositoryMetadata.table.c.update_time.desc()):
            changeset_revision = repository_metadata.changeset_revision
            if changeset_revision in changeset_revisions_checked or changeset_revision not in changeset_revisions:
                self.sa_session.delete(repository_metadata)
                self.sa_session.flush()

    def compare_changeset_revisions(self, ancestor_changeset_revision, ancestor_metadata_dict):
        """
        Compare the contents of two changeset revisions to determine if a new repository
        metadata revision should be created.
        """
        # The metadata associated with ancestor_changeset_revision is ancestor_metadata_dict.
        # This changeset_revision is an ancestor of self.changeset_revision which is associated
        # with self.metadata_dict.  A new repository_metadata record will be created only
        # when this method returns the constant value self.NOT_EQUAL_AND_NOT_SUBSET.
        ancestor_datatypes = ancestor_metadata_dict.get('datatypes', [])
        ancestor_tools = ancestor_metadata_dict.get('tools', [])
        ancestor_guids = [tool_dict['guid'] for tool_dict in ancestor_tools]
        ancestor_guids.sort()
        ancestor_readme_files = ancestor_metadata_dict.get('readme_files', [])
        ancestor_repository_dependencies_dict = ancestor_metadata_dict.get('repository_dependencies', {})
        ancestor_repository_dependencies = ancestor_repository_dependencies_dict.get('repository_dependencies', [])
        ancestor_tool_dependencies = ancestor_metadata_dict.get('tool_dependencies', {})
        ancestor_workflows = ancestor_metadata_dict.get('workflows', [])
        ancestor_data_manager = ancestor_metadata_dict.get('data_manager', {})
        current_datatypes = self.metadata_dict.get('datatypes', [])
        current_tools = self.metadata_dict.get('tools', [])
        current_guids = [tool_dict['guid'] for tool_dict in current_tools]
        current_guids.sort()
        current_readme_files = self.metadata_dict.get('readme_files', [])
        current_repository_dependencies_dict = self.metadata_dict.get('repository_dependencies', {})
        current_repository_dependencies = current_repository_dependencies_dict.get('repository_dependencies', [])
        current_tool_dependencies = self.metadata_dict.get('tool_dependencies', {})
        current_workflows = self.metadata_dict.get('workflows', [])
        current_data_manager = self.metadata_dict.get('data_manager', {})
        # Handle case where no metadata exists for either changeset.
        no_datatypes = not ancestor_datatypes and not current_datatypes
        no_readme_files = not ancestor_readme_files and not current_readme_files
        no_repository_dependencies = not ancestor_repository_dependencies and not current_repository_dependencies
        no_tool_dependencies = not ancestor_tool_dependencies and not current_tool_dependencies
        no_tools = not ancestor_guids and not current_guids
        no_workflows = not ancestor_workflows and not current_workflows
        no_data_manager = not ancestor_data_manager and not current_data_manager
        if no_datatypes and no_readme_files and no_repository_dependencies and \
                no_tool_dependencies and no_tools and no_workflows and \
                no_data_manager:
            return self.NO_METADATA
        # Uncomment the following if we decide that README files should affect how installable
        # repository revisions are defined.  See the NOTE in self.compare_readme_files().
        # readme_file_comparision = self.compare_readme_files( ancestor_readme_files, current_readme_files )
        repository_dependency_comparison = self.compare_repository_dependencies(ancestor_repository_dependencies,
                                                                                current_repository_dependencies)
        tool_dependency_comparison = self.compare_tool_dependencies(ancestor_tool_dependencies,
                                                                    current_tool_dependencies)
        workflow_comparison = self.compare_workflows(ancestor_workflows, current_workflows)
        datatype_comparison = self.compare_datatypes(ancestor_datatypes, current_datatypes)
        data_manager_comparison = self.compare_data_manager(ancestor_data_manager, current_data_manager)
        # Handle case where all metadata is the same.
        if ancestor_guids == current_guids and \
                repository_dependency_comparison == self.EQUAL and \
                tool_dependency_comparison == self.EQUAL and \
                workflow_comparison == self.EQUAL and \
                datatype_comparison == self.EQUAL and \
                data_manager_comparison == self.EQUAL:
            return self.EQUAL
        # Handle case where ancestor metadata is a subset of current metadata.
        # readme_file_is_subset = readme_file_comparision in [ self.EQUAL, self.SUBSET ]
        repository_dependency_is_subset = repository_dependency_comparison in self.SUBSET_VALUES
        tool_dependency_is_subset = tool_dependency_comparison in self.SUBSET_VALUES
        workflow_dependency_is_subset = workflow_comparison in self.SUBSET_VALUES
        datatype_is_subset = datatype_comparison in self.SUBSET_VALUES
        datamanager_is_subset = data_manager_comparison in self.SUBSET_VALUES
        if repository_dependency_is_subset and tool_dependency_is_subset and \
                workflow_dependency_is_subset and datatype_is_subset and \
                datamanager_is_subset:
            is_subset = True
            for guid in ancestor_guids:
                if guid not in current_guids:
                    is_subset = False
                    break
            if is_subset:
                return self.SUBSET
        return self.NOT_EQUAL_AND_NOT_SUBSET

    def compare_data_manager(self, ancestor_metadata, current_metadata):
        """Determine if ancestor_metadata is the same as or a subset of current_metadata for data_managers."""
        def __data_manager_dict_to_tuple_list(metadata_dict):
            # we do not check tool_guid or tool conf file name
            return set(sorted([(name,
                                tuple(sorted(value.get('data_tables', []))),
                                value.get('guid'),
                                value.get('version'),
                                value.get('name'),
                                value.get('id')) for name, value in metadata_dict.items()]))
        # only compare valid entries, any invalid entries are ignored
        ancestor_metadata = __data_manager_dict_to_tuple_list(ancestor_metadata.get('data_managers', {}))
        current_metadata = __data_manager_dict_to_tuple_list(current_metadata.get('data_managers', {}))
        # use set comparisons
        if ancestor_metadata.issubset(current_metadata):
            if ancestor_metadata == current_metadata:
                return self.EQUAL
            return self.SUBSET
        return self.NOT_EQUAL_AND_NOT_SUBSET

    def compare_datatypes(self, ancestor_datatypes, current_datatypes):
        """Determine if ancestor_datatypes is the same as or a subset of current_datatypes."""
        # Each datatype dict looks something like:
        # {"dtype": "galaxy.datatypes.images:Image", "extension": "pdf", "mimetype": "application/pdf"}
        if len(ancestor_datatypes) <= len(current_datatypes):
            for ancestor_datatype in ancestor_datatypes:
                # Currently the only way to differentiate datatypes is by name.
                ancestor_datatype_dtype = ancestor_datatype['dtype']
                ancestor_datatype_extension = ancestor_datatype['extension']
                ancestor_datatype_mimetype = ancestor_datatype.get('mimetype', None)
                found_in_current = False
                for current_datatype in current_datatypes:
                    if current_datatype['dtype'] == ancestor_datatype_dtype and \
                            current_datatype['extension'] == ancestor_datatype_extension and \
                            current_datatype.get('mimetype', None) == ancestor_datatype_mimetype:
                        found_in_current = True
                        break
                if not found_in_current:
                    return self.NOT_EQUAL_AND_NOT_SUBSET
            if len(ancestor_datatypes) == len(current_datatypes):
                return self.EQUAL
            else:
                return self.SUBSET
        return self.NOT_EQUAL_AND_NOT_SUBSET

    def compare_readme_files(self, ancestor_readme_files, current_readme_files):
        """Determine if ancestor_readme_files is equal to or a subset of current_readme_files."""
        # NOTE: Although repository README files are considered a Galaxy utility similar to tools,
        # repository dependency definition files, etc., we don't define installable repository revisions
        # based on changes to README files.  To understand why, consider the following scenario:
        # 1. Upload the filtering tool to a new repository - this will result in installable revision 0.
        # 2. Upload a README file to the repository - this will move the installable revision from revision
        #    0 to revision 1.
        # 3. Delete the README file from the repository - this will move the installable revision from
        #    revision 1 to revision 2.
        # The above scenario is the current behavior, and that is why this method is not currently called.
        # This method exists only in case we decide to change this current behavior.
        # The lists of readme files looks something like: ["database/community_files/000/repo_2/readme.txt"]
        if len(ancestor_readme_files) <= len(current_readme_files):
            for ancestor_readme_file in ancestor_readme_files:
                if ancestor_readme_file not in current_readme_files:
                    return self.NOT_EQUAL_AND_NOT_SUBSET
            if len(ancestor_readme_files) == len(current_readme_files):
                return self.EQUAL
            else:
                return self.SUBSET
        return self.NOT_EQUAL_AND_NOT_SUBSET

    def compare_repository_dependencies(self, ancestor_repository_dependencies, current_repository_dependencies):
        """
        Determine if ancestor_repository_dependencies is the same as or a subset of
        current_repository_dependencies.
        """
        # The list of repository_dependencies looks something like:
        # [["http://localhost:9009", "emboss_datatypes", "test", "ab03a2a5f407", "False", "False"]].
        # Create a string from each tuple in the list for easier comparison.
        if len(ancestor_repository_dependencies) <= len(current_repository_dependencies):
            for ancestor_tup in ancestor_repository_dependencies:
                a_tool_shed, a_repo_name, a_repo_owner, a_changeset_revision, \
                    a_prior_installation_required, \
                    a_only_if_compiling_contained_td = ancestor_tup
                cleaned_a_tool_shed = common_util.remove_protocol_from_tool_shed_url(a_tool_shed)
                found_in_current = False
                for current_tup in current_repository_dependencies:
                    c_tool_shed, c_repo_name, c_repo_owner, \
                        c_changeset_revision, c_prior_installation_required, \
                        c_only_if_compiling_contained_td = current_tup
                    cleaned_c_tool_shed = common_util.remove_protocol_from_tool_shed_url(c_tool_shed)
                    if cleaned_c_tool_shed == cleaned_a_tool_shed and \
                            c_repo_name == a_repo_name and \
                            c_repo_owner == a_repo_owner and \
                            c_changeset_revision == a_changeset_revision and \
                            util.string_as_bool(c_prior_installation_required) == util.string_as_bool(a_prior_installation_required) and \
                            util.string_as_bool(c_only_if_compiling_contained_td) == util.string_as_bool(a_only_if_compiling_contained_td):
                        found_in_current = True
                        break
                if not found_in_current:
                    # In some cases, the only difference between a dependency definition in the lists
                    # is the changeset_revision value.  We'll check to see if this is the case, and if
                    # the defined dependency is a repository that has metadata set only on its tip.
                    if not self.different_revision_defines_tip_only_repository_dependency(ancestor_tup,
                                                                                          current_repository_dependencies):
                        return self.NOT_EQUAL_AND_NOT_SUBSET
                    return self.SUBSET
            if len(ancestor_repository_dependencies) == len(current_repository_dependencies):
                return self.EQUAL
            else:
                return self.SUBSET
        return self.NOT_EQUAL_AND_NOT_SUBSET

    def compare_tool_dependencies(self, ancestor_tool_dependencies, current_tool_dependencies):
        """
        Determine if ancestor_tool_dependencies is the same as or a subset of current_tool_dependencies.
        """
        # The tool_dependencies dictionary looks something like:
        # {'bwa/0.5.9': {'readme': 'some string', 'version': '0.5.9', 'type': 'package', 'name': 'bwa'}}
        if len(ancestor_tool_dependencies) <= len(current_tool_dependencies):
            for ancestor_td_key, ancestor_requirements_dict in ancestor_tool_dependencies.items():
                if ancestor_td_key in current_tool_dependencies:
                    # The only values that could have changed between the 2 dictionaries are the
                    # "readme" or "type" values.  Changing the readme value makes no difference.
                    # Changing the type will change the installation process, but for now we'll
                    # assume it was a typo, so new metadata shouldn't be generated.
                    continue
                else:
                    return self.NOT_EQUAL_AND_NOT_SUBSET
            # At this point we know that ancestor_tool_dependencies is at least a subset of current_tool_dependencies.
            if len(ancestor_tool_dependencies) == len(current_tool_dependencies):
                return self.EQUAL
            else:
                return self.SUBSET
        return self.NOT_EQUAL_AND_NOT_SUBSET

    def compare_workflows(self, ancestor_workflows, current_workflows):
        """
        Determine if ancestor_workflows is the same as current_workflows or if ancestor_workflows
        is a subset of current_workflows.
        """
        if len(ancestor_workflows) <= len(current_workflows):
            for ancestor_workflow_tup in ancestor_workflows:
                # ancestor_workflows is a list of tuples where each contained tuple is
                # [ <relative path to the .ga file in the repository>, <exported workflow dict> ]
                ancestor_workflow_dict = ancestor_workflow_tup[1]
                # Currently the only way to differentiate workflows is by name.
                ancestor_workflow_name = ancestor_workflow_dict['name']
                num_ancestor_workflow_steps = len(ancestor_workflow_dict['steps'])
                found_in_current = False
                for current_workflow_tup in current_workflows:
                    current_workflow_dict = current_workflow_tup[1]
                    # Assume that if the name and number of steps are euqal, then the workflows
                    # are the same.  Of course, this may not be true...
                    if current_workflow_dict['name'] == ancestor_workflow_name and \
                            len(current_workflow_dict['steps']) == num_ancestor_workflow_steps:
                        found_in_current = True
                        break
                if not found_in_current:
                    return self.NOT_EQUAL_AND_NOT_SUBSET
            if len(ancestor_workflows) == len(current_workflows):
                return self.EQUAL
            else:
                return self.SUBSET
        return self.NOT_EQUAL_AND_NOT_SUBSET

    def create_or_update_repository_metadata(self, changeset_revision, metadata_dict):
        """Create or update a repository_metadata record in the tool shed."""
        has_repository_dependencies = False
        has_repository_dependencies_only_if_compiling_contained_td = False
        includes_datatypes = False
        includes_tools = False
        includes_tool_dependencies = False
        includes_workflows = False
        if metadata_dict:
            repository_dependencies_dict = metadata_dict.get('repository_dependencies', {})
            repository_dependencies = repository_dependencies_dict.get('repository_dependencies', [])
            has_repository_dependencies, has_repository_dependencies_only_if_compiling_contained_td = \
                repository_util.get_repository_dependency_types(repository_dependencies)
            if 'datatypes' in metadata_dict:
                includes_datatypes = True
            if 'tools' in metadata_dict:
                includes_tools = True
            if 'tool_dependencies' in metadata_dict:
                includes_tool_dependencies = True
            if 'workflows' in metadata_dict:
                includes_workflows = True
        if has_repository_dependencies or \
                has_repository_dependencies_only_if_compiling_contained_td or \
                includes_datatypes or includes_tools or \
                includes_tool_dependencies or includes_workflows:
            downloadable = True
        else:
            downloadable = False
        repository_metadata = metadata_util.get_repository_metadata_by_changeset_revision(self.app,
                                                                                          self.app.security.encode_id(self.repository.id),
                                                                                          changeset_revision)
        if repository_metadata:
            repository_metadata.metadata = metadata_dict
            repository_metadata.downloadable = downloadable
            repository_metadata.has_repository_dependencies = has_repository_dependencies
            repository_metadata.includes_datatypes = includes_datatypes
            repository_metadata.includes_tools = includes_tools
            repository_metadata.includes_tool_dependencies = includes_tool_dependencies
            repository_metadata.includes_workflows = includes_workflows
        else:
            repository_metadata = \
                self.app.model.RepositoryMetadata(repository_id=self.repository.id,
                                                  changeset_revision=changeset_revision,
                                                  metadata=metadata_dict,
                                                  downloadable=downloadable,
                                                  has_repository_dependencies=has_repository_dependencies,
                                                  includes_datatypes=includes_datatypes,
                                                  includes_tools=includes_tools,
                                                  includes_tool_dependencies=includes_tool_dependencies,
                                                  includes_workflows=includes_workflows)
        # Always set the default values for the following columns.  When resetting all metadata
        # on a repository this will reset the values.
        repository_metadata.missing_test_components = False
        self.sa_session.add(repository_metadata)
        self.sa_session.flush()

        return repository_metadata

    def different_revision_defines_tip_only_repository_dependency(self, rd_tup, repository_dependencies):
        """
        Determine if the only difference between rd_tup and a dependency definition in the list of
        repository_dependencies is the changeset_revision value.
        """
        rd_tool_shed, rd_name, rd_owner, rd_changeset_revision, rd_prior_installation_required, rd_only_if_compiling_contained_td = \
            common_util.parse_repository_dependency_tuple(rd_tup)
        cleaned_rd_tool_shed = common_util.remove_protocol_from_tool_shed_url(rd_tool_shed)
        for repository_dependency in repository_dependencies:
            tool_shed, name, owner, changeset_revision, prior_installation_required, only_if_compiling_contained_td = \
                common_util.parse_repository_dependency_tuple(repository_dependency)
            cleaned_tool_shed = common_util.remove_protocol_from_tool_shed_url(tool_shed)
            if cleaned_rd_tool_shed == cleaned_tool_shed and rd_name == name and rd_owner == owner:
                # Determine if the repository represented by the dependency tuple is an instance of the repository type TipOnly.
                required_repository = repository_util.get_repository_by_name_and_owner(self.app, name, owner)
                repository_type_class = self.app.repository_types_registry.get_class_by_label(required_repository.type)
                return isinstance(repository_type_class, TipOnly)
        return False

    def get_parent_id(self, id, old_id, version, guid, changeset_revisions):
        parent_id = None
        # Compare from most recent to oldest.
        changeset_revisions.reverse()
        for changeset_revision in changeset_revisions:
            repository_metadata = metadata_util.get_repository_metadata_by_changeset_revision(self.app, id, changeset_revision)
            metadata = repository_metadata.metadata
            tools_dicts = metadata.get('tools', [])
            for tool_dict in tools_dicts:
                if tool_dict['guid'] == guid:
                    # The tool has not changed between the compared changeset revisions.
                    continue
                if tool_dict['id'] == old_id and tool_dict['version'] != version:
                    # The tool version is different, so we've found the parent.
                    return tool_dict['guid']
        if parent_id is None:
            # The tool did not change through all of the changeset revisions.
            return old_id

    def get_query_for_setting_metadata_on_repositories(self, my_writable=False, order=True):
        """
        Return a query containing repositories for resetting metadata.  The order parameter
        is used for displaying the list of repositories ordered alphabetically for display on
        a page.  When called from the Tool Shed API, order is False.
        """
        # When called from the Tool Shed API, the metadata is reset on all repositories of types
        # repository_suite_definition and tool_dependency_definition in addition to other selected
        # repositories.
        if my_writable:
            username = self.user.username
            clause_list = []
            for repository in self.sa_session.query(self.app.model.Repository) \
                                             .filter(self.app.model.Repository.table.c.deleted == false()):
                # Always reset metadata on all repositories of types repository_suite_definition and
                # tool_dependency_definition.
                if repository.type in [rt_util.REPOSITORY_SUITE_DEFINITION, rt_util.TOOL_DEPENDENCY_DEFINITION]:
                    clause_list.append(self.app.model.Repository.table.c.id == repository.id)
                else:
                    allow_push = repository.allow_push(self.app)
                    if allow_push:
                        # Include all repositories that are writable by the current user.
                        allow_push_usernames = allow_push.split(',')
                        if username in allow_push_usernames:
                            clause_list.append(self.app.model.Repository.table.c.id == repository.id)
            if clause_list:
                if order:
                    return self.sa_session.query(self.app.model.Repository) \
                                          .filter(or_(*clause_list)) \
                                          .order_by(self.app.model.Repository.table.c.name,
                                                    self.app.model.Repository.table.c.user_id)
                else:
                    return self.sa_session.query(self.app.model.Repository) \
                                          .filter(or_(*clause_list))
            else:
                # Return an empty query.
                return self.sa_session.query(self.app.model.Repository) \
                                      .filter(self.app.model.Repository.table.c.id == -1)
        else:
            if order:
                return self.sa_session.query(self.app.model.Repository) \
                                      .filter(self.app.model.Repository.table.c.deleted == false()) \
                                      .order_by(self.app.model.Repository.table.c.name,
                                                self.app.model.Repository.table.c.user_id)
            else:
                return self.sa_session.query(self.app.model.Repository) \
                                      .filter(self.app.model.Repository.table.c.deleted == false())

    def new_datatypes_metadata_required(self, repository_metadata):
        """
        Compare the last saved metadata for each datatype in the repository with the new metadata
        in self.metadata_dict to determine if a new repository_metadata table record is required
        or if the last saved metadata record can be updated for datatypes instead.
        """
        # Datatypes are stored in metadata as a list of dictionaries that looks like:
        # [{'dtype': 'galaxy.datatypes.data:Text', 'subclass': 'True', 'extension': 'acedb'}]
        if 'datatypes' in self.metadata_dict:
            current_datatypes = self.metadata_dict['datatypes']
            if repository_metadata:
                metadata = repository_metadata.metadata
                if metadata:
                    if 'datatypes' in metadata:
                        ancestor_datatypes = metadata['datatypes']
                        # The saved metadata must be a subset of the new metadata.
                        datatype_comparison = self.compare_datatypes(ancestor_datatypes, current_datatypes)
                        if datatype_comparison == self.NOT_EQUAL_AND_NOT_SUBSET:
                            return True
                        else:
                            return False
                    else:
                        # The new metadata includes datatypes, but the stored metadata does not,
                        # so we can update the stored metadata.
                        return False
                else:
                    # There is no stored metadata, so we can update the metadata column in the
                    # repository_metadata table.
                    return False
            else:
                # There is no stored repository metadata, so we need to create a new repository_metadata
                # table record.
                return True
        # self.metadata_dict includes no metadata for datatypes, so a new repository_metadata
        # table record is not needed.
        return False

    def new_metadata_required_for_utilities(self):
        """
        This method compares the last stored repository_metadata record associated with self.repository
        against the contents of self.metadata_dict and returns True or False for the union set of Galaxy
        utilities contained in both metadata dictionaries.  The metadata contained in self.metadata_dict
        may not be a subset of that contained in the last stored repository_metadata record associated with
        self.repository because one or more Galaxy utilities may have been deleted from self.repository in
        the new tip.
        """
        repository_metadata = metadata_util.get_latest_repository_metadata(self.app,
                                                                           self.repository.id,
                                                                           downloadable=False)
        datatypes_required = self.new_datatypes_metadata_required(repository_metadata)
        # Uncomment the following if we decide that README files should affect how installable
        # repository revisions are defined.  See the NOTE in the compare_readme_files() method.
        # readme_files_required = sewlf.new_readme_files_metadata_required( repository_metadata )
        repository_dependencies_required = \
            self.new_repository_dependency_metadata_required(repository_metadata)
        tools_required = self.new_tool_metadata_required(repository_metadata)
        tool_dependencies_required = self.new_tool_dependency_metadata_required(repository_metadata)
        workflows_required = self.new_workflow_metadata_required(repository_metadata)
        if datatypes_required or repository_dependencies_required or \
                tools_required or tool_dependencies_required or workflows_required:
            return True
        return False

    def new_readme_files_metadata_required(self, repository_metadata):
        """
        Compare the last saved metadata for each readme file in the repository with the new metadata
        in self.metadata_dict to determine if a new repository_metadata table record is required or
        if the last saved metadata record can be updated for readme files instead.
        """
        # Repository README files are kind of a special case because they have no effect on reproducibility.
        # We'll simply inspect the file names to determine if any that exist in the saved metadata are
        # eliminated from the new metadata in self.metadata_dict.
        if 'readme_files' in self.metadata_dict:
            current_readme_files = self.metadata_dict['readme_files']
            if repository_metadata:
                metadata = repository_metadata.metadata
                if metadata:
                    if 'readme_files' in metadata:
                        ancestor_readme_files = metadata['readme_files']
                        # The saved metadata must be a subset of the new metadata.
                        readme_file_comparison = self.compare_readme_files(ancestor_readme_files,
                                                                           current_readme_files)
                        if readme_file_comparison == self.NOT_EQUAL_AND_NOT_SUBSET:
                            return True
                        else:
                            return False
                    else:
                        # The new metadata includes readme_files, but the stored metadata does not, so
                        # we can update the stored metadata.
                        return False
                else:
                    # There is no stored metadata, so we can update the metadata column in the repository_metadata
                    # table.
                    return False
            else:
                # There is no stored repository metadata, so we need to create a new repository_metadata
                # table record.
                return True
        # self.metadata_dict includes no metadata for readme_files, so a new repository_metadata
        # table record is not needed.
        return False

    def new_repository_dependency_metadata_required(self, repository_metadata):
        """
        Compare the last saved metadata for each repository dependency in the repository
        with the new metadata in self.metadata_dict to determine if a new repository_metadata
        table record is required or if the last saved metadata record can be updated for
        repository_dependencies instead.
        """
        if repository_metadata:
            metadata = repository_metadata.metadata
            if 'repository_dependencies' in metadata:
                saved_repository_dependencies = metadata['repository_dependencies']['repository_dependencies']
                new_repository_dependencies_metadata = self.metadata_dict.get('repository_dependencies', None)
                if new_repository_dependencies_metadata:
                    new_repository_dependencies = self.metadata_dict['repository_dependencies']['repository_dependencies']
                    # TODO: We used to include the following here to handle the case where repository
                    # dependency definitions were deleted.  However this erroneously returned True in
                    # cases where is should not have done so.  This usually occurred where multiple single
                    # files were uploaded when a single tarball should have been.  We need to implement
                    # support for handling deleted repository dependency definitions so that we can guarantee
                    # reproducibility, but we need to do it in a way that is better than the following.
                    # for new_repository_dependency in new_repository_dependencies:
                    #     if new_repository_dependency not in saved_repository_dependencies:
                    #         return True
                    # The saved metadata must be a subset of the new metadata.
                    for saved_repository_dependency in saved_repository_dependencies:
                        if saved_repository_dependency not in new_repository_dependencies:
                            # In some cases, the only difference between a dependency definition in the lists
                            # is the changeset_revision value.  We'll check to see if this is the case, and if
                            # the defined dependency is a repository that has metadata set only on its tip.
                            if not self.different_revision_defines_tip_only_repository_dependency(saved_repository_dependency,
                                                                                                  new_repository_dependencies):
                                return True
                    return False
                else:
                    # The repository_dependencies.xml file must have been deleted, so create a new
                    # repository_metadata record so we always have access to the deleted file.
                    return True
            else:
                return False
        else:
            if 'repository_dependencies' in self.metadata_dict:
                # There is no saved repository metadata, so we need to create a new repository_metadata record.
                return True
            else:
                # self.metadata_dict includes no metadata for repository dependencies, so a new repository_metadata
                # record is not needed.
                return False

    def new_tool_metadata_required(self, repository_metadata):
        """
        Compare the last saved metadata for each tool in the repository with the new metadata in
        self.metadata_dict to determine if a new repository_metadata table record is required, or if
        the last saved metadata record can be updated instead.
        """
        if 'tools' in self.metadata_dict:
            if repository_metadata:
                metadata = repository_metadata.metadata
                if metadata:
                    if 'tools' in metadata:
                        saved_tool_ids = []
                        # The metadata for one or more tools was successfully generated in the past
                        # for this repository, so we first compare the version string for each tool id
                        # in self.metadata_dict with what was previously saved to see if we need to create
                        # a new table record or if we can simply update the existing record.
                        for new_tool_metadata_dict in self.metadata_dict['tools']:
                            for saved_tool_metadata_dict in metadata['tools']:
                                if saved_tool_metadata_dict['id'] not in saved_tool_ids:
                                    saved_tool_ids.append(saved_tool_metadata_dict['id'])
                                if new_tool_metadata_dict['id'] == saved_tool_metadata_dict['id']:
                                    if new_tool_metadata_dict['version'] != saved_tool_metadata_dict['version']:
                                        return True
                        # So far, a new metadata record is not required, but we still have to check to see if
                        # any new tool ids exist in self.metadata_dict that are not in the saved metadata.  We do
                        # this because if a new tarball was uploaded to a repository that included tools, it
                        # may have removed existing tool files if they were not included in the uploaded tarball.
                        for new_tool_metadata_dict in self.metadata_dict['tools']:
                            if new_tool_metadata_dict['id'] not in saved_tool_ids:
                                return True
                        return False
                    else:
                        # The new metadata includes tools, but the stored metadata does not, so we can
                        # update the stored metadata.
                        return False
                else:
                    # There is no stored metadata, so we can update the metadata column in the
                    # repository_metadata table.
                    return False
            else:
                # There is no stored repository metadata, so we need to create a new repository_metadata
                # table record.
                return True
        # self.metadata_dict includes no metadata for tools, so a new repository_metadata table
        # record is not needed.
        return False

    def new_tool_dependency_metadata_required(self, repository_metadata):
        """
        Compare the last saved metadata for each tool dependency in the repository with the new
        metadata in self.metadata_dict to determine if a new repository_metadata table record is
        required or if the last saved metadata record can be updated for tool_dependencies instead.
        """
        if repository_metadata:
            metadata = repository_metadata.metadata
            if metadata:
                if 'tool_dependencies' in metadata:
                    saved_tool_dependencies = metadata['tool_dependencies']
                    new_tool_dependencies = self.metadata_dict.get('tool_dependencies', None)
                    if new_tool_dependencies:
                        # TODO: We used to include the following here to handle the case where
                        # tool dependency definitions were deleted.  However, this erroneously
                        # returned True in cases where is should not have done so.  This usually
                        # occurred where multiple single files were uploaded when a single tarball
                        # should have been.  We need to implement support for handling deleted
                        # tool dependency definitions so that we can guarantee reproducibility,
                        # but we need to do it in a way that is better than the following.
                        # for new_tool_dependency in new_tool_dependencies:
                        #     if new_tool_dependency not in saved_tool_dependencies:
                        #         return True
                        # The saved metadata must be a subset of the new metadata.
                        for saved_tool_dependency in saved_tool_dependencies:
                            if saved_tool_dependency not in new_tool_dependencies:
                                return True
                        return False
                    else:
                        # The tool_dependencies.xml file must have been deleted, so create a new
                        # repository_metadata record so we always have
                        # access to the deleted file.
                        return True
                else:
                    return False
            else:
                # We have repository metadata that does not include metadata for any tool dependencies
                # in the repository, so we can update the existing repository metadata.
                return False
        else:
            if 'tool_dependencies' in self.metadata_dict:
                # There is no saved repository metadata, so we need to create a new repository_metadata
                # record.
                return True
            else:
                # self.metadata_dict includes no metadata for tool dependencies, so a new repository_metadata
                # record is not needed.
                return False

    def new_workflow_metadata_required(self, repository_metadata):
        """
        Currently everything about an exported workflow except the name is hard-coded, so
        there's no real way to differentiate versions of exported workflows.  If this changes
        at some future time, this method should be enhanced accordingly.
        """
        if 'workflows' in self.metadata_dict:
            if repository_metadata:
                # The repository has metadata, so update the workflows value -
                # no new record is needed.
                return False
            else:
                # There is no saved repository metadata, so we need to create a
                # new repository_metadata table record.
                return True
        # self.metadata_dict includes no metadata for workflows, so a new
        # repository_metadata table record is not needed.
        return False

    def reset_all_metadata_on_repository_in_tool_shed(self):
        """Reset all metadata on a single repository in a tool shed."""
        log.debug("Resetting all metadata on repository: %s" % self.repository.name)
        repo = hg_util.get_repo_for_repository(self.app,
                                               repository=None,
                                               repo_path=self.repository.repo_path(self.app),
                                               create=False)
        # The list of changeset_revisions refers to repository_metadata records that have been created
        # or updated.  When the following loop completes, we'll delete all repository_metadata records
        # for this repository that do not have a changeset_revision value in this list.
        changeset_revisions = []
        # When a new repository_metadata record is created, it always uses the values of
        # metadata_changeset_revision and metadata_dict.
        metadata_changeset_revision = None
        metadata_dict = None
        ancestor_changeset_revision = None
        ancestor_metadata_dict = None
        for changeset in self.repository.get_changesets_for_setting_metadata(self.app):
            work_dir = tempfile.mkdtemp(prefix="tmp-toolshed-ramorits")
            ctx = repo.changectx(changeset)
            log.debug("Cloning repository changeset revision: %s", str(ctx.rev()))
            cloned_ok, error_message = hg_util.clone_repository(self.repository_clone_url, work_dir, str(ctx.rev()))
            if cloned_ok:
                log.debug("Generating metadata for changset revision: %s", str(ctx.rev()))
                self.set_changeset_revision(str(repo.changectx(changeset)))
                self.set_repository_files_dir(work_dir)
                self.generate_metadata_for_changeset_revision()
                if self.metadata_dict:
                    if metadata_changeset_revision is None and metadata_dict is None:
                        # We're at the first change set in the change log.
                        metadata_changeset_revision = self.changeset_revision
                        metadata_dict = self.metadata_dict
                    if ancestor_changeset_revision:
                        # Compare metadata from ancestor and current.  The value of comparison will be one of:
                        # self.NO_METADATA - no metadata for either ancestor or current, so continue from current
                        # self.EQUAL - ancestor metadata is equivalent to current metadata, so continue from current
                        # self.SUBSET - ancestor metadata is a subset of current metadata, so continue from current
                        # self.NOT_EQUAL_AND_NOT_SUBSET - ancestor metadata is neither equal to nor a subset of current
                        # metadata, so persist ancestor metadata.
                        comparison = self.compare_changeset_revisions(ancestor_changeset_revision, ancestor_metadata_dict)
                        if comparison in [self.NO_METADATA, self.EQUAL, self.SUBSET]:
                            ancestor_changeset_revision = self.changeset_revision
                            ancestor_metadata_dict = self.metadata_dict
                        elif comparison == self.NOT_EQUAL_AND_NOT_SUBSET:
                            metadata_changeset_revision = ancestor_changeset_revision
                            metadata_dict = ancestor_metadata_dict
                            self.create_or_update_repository_metadata(metadata_changeset_revision, metadata_dict)
                            changeset_revisions.append(metadata_changeset_revision)
                            ancestor_changeset_revision = self.changeset_revision
                            ancestor_metadata_dict = self.metadata_dict
                    else:
                        # We're at the beginning of the change log.
                        ancestor_changeset_revision = self.changeset_revision
                        ancestor_metadata_dict = self.metadata_dict
                    if not ctx.children():
                        metadata_changeset_revision = self.changeset_revision
                        metadata_dict = self.metadata_dict
                        # We're at the end of the change log.
                        self.create_or_update_repository_metadata(metadata_changeset_revision, metadata_dict)
                        changeset_revisions.append(metadata_changeset_revision)
                        ancestor_changeset_revision = None
                        ancestor_metadata_dict = None
                elif ancestor_metadata_dict:
                    # We reach here only if self.metadata_dict is empty and ancestor_metadata_dict is not.
                    if not ctx.children():
                        # We're at the end of the change log.
                        self.create_or_update_repository_metadata(metadata_changeset_revision, metadata_dict)
                        changeset_revisions.append(metadata_changeset_revision)
                        ancestor_changeset_revision = None
                        ancestor_metadata_dict = None
            basic_util.remove_dir(work_dir)
        # Delete all repository_metadata records for this repository that do not have a changeset_revision
        # value in changeset_revisions.
        self.clean_repository_metadata(changeset_revisions)
        # Set tool version information for all downloadable changeset revisions.  Get the list of changeset
        # revisions from the changelog.
        self.reset_all_tool_versions(repo)

    def reset_all_tool_versions(self, repo):
        """Reset tool version lineage for those changeset revisions that include valid tools."""
        encoded_repository_id = self.app.security.encode_id(self.repository.id)
        changeset_revisions_that_contain_tools = []
        for changeset in repo.changelog:
            changeset_revision = str(repo.changectx(changeset))
            repository_metadata = metadata_util.get_repository_metadata_by_changeset_revision(self.app,
                                                                                              encoded_repository_id,
                                                                                              changeset_revision)
            if repository_metadata:
                metadata = repository_metadata.metadata
                if metadata:
                    if metadata.get('tools', None):
                        changeset_revisions_that_contain_tools.append(changeset_revision)
        # The list of changeset_revisions_that_contain_tools is now filtered to contain only those that
        # are downloadable and contain tools.  If a repository includes tools, build a dictionary of
        # { 'tool id' : 'parent tool id' } pairs for each tool in each changeset revision.
        for index, changeset_revision in enumerate(changeset_revisions_that_contain_tools):
            tool_versions_dict = {}
            repository_metadata = metadata_util.get_repository_metadata_by_changeset_revision(self.app,
                                                                                              encoded_repository_id,
                                                                                              changeset_revision)
            metadata = repository_metadata.metadata
            tool_dicts = metadata['tools']
            if index == 0:
                # The first changeset_revision is a special case because it will have no ancestor
                # changeset_revisions in which to match tools.  The parent tool id for tools in the
                # first changeset_revision will be the "old_id" in the tool config.
                for tool_dict in tool_dicts:
                    tool_versions_dict[tool_dict['guid']] = tool_dict['id']
            else:
                for tool_dict in tool_dicts:
                    parent_id = self.get_parent_id(encoded_repository_id,
                                                   tool_dict['id'],
                                                   tool_dict['version'],
                                                   tool_dict['guid'],
                                                   changeset_revisions_that_contain_tools[0:index])
                    tool_versions_dict[tool_dict['guid']] = parent_id
            if tool_versions_dict:
                repository_metadata.tool_versions = tool_versions_dict
                self.sa_session.add(repository_metadata)
                self.sa_session.flush()

    def reset_metadata_on_selected_repositories(self, **kwd):
        """
        Inspect the repository changelog to reset metadata for all appropriate changeset revisions.
        This method is called from both Galaxy and the Tool Shed.
        """
        repository_ids = util.listify(kwd.get('repository_ids', None))
        message = ''
        status = 'done'
        if repository_ids:
            successful_count = 0
            unsuccessful_count = 0
            for repository_id in repository_ids:
                try:
                    repository = repository_util.get_repository_in_tool_shed(self.app, repository_id)
                    self.set_repository(repository)
                    self.resetting_all_metadata_on_repository = True
                    self.reset_all_metadata_on_repository_in_tool_shed()
                    if self.invalid_file_tups:
                        message = tool_util.generate_message_for_invalid_tools(self.app,
                                                                               self.invalid_file_tups,
                                                                               repository,
                                                                               None,
                                                                               as_html=False)
                        log.debug(message)
                        unsuccessful_count += 1
                    else:
                        log.debug("Successfully reset metadata on repository %s owned by %s" %
                            (str(repository.name), str(repository.user.username)))
                        successful_count += 1
                except Exception:
                    log.exception("Error attempting to reset metadata on repository %s", str(repository.name))
                    unsuccessful_count += 1
            message = "Successfully reset metadata on %d %s.  " % \
                (successful_count, inflector.cond_plural(successful_count, "repository"))
            if unsuccessful_count:
                message += "Error setting metadata on %d %s - see the paster log for details.  " % \
                    (unsuccessful_count, inflector.cond_plural(unsuccessful_count, "repository"))
        else:
            message = 'Select at least one repository to on which to reset all metadata.'
            status = 'error'
        return message, status

    def set_repository(self, repository):
        super(RepositoryMetadataManager, self).set_repository(repository)
        self.repository_clone_url = common_util.generate_clone_url_for_repository_in_tool_shed(self.user, repository)

    def set_repository_metadata(self, host, content_alert_str='', **kwd):
        """
        Set metadata using the self.repository's current disk files, returning specific error
        messages (if any) to alert the repository owner that the changeset has problems.
        """
        message = ''
        status = 'done'
        encoded_id = self.app.security.encode_id(self.repository.id)
        repo_dir = self.repository.repo_path(self.app)
        repo = hg_util.get_repo_for_repository(self.app, repository=None, repo_path=repo_dir, create=False)
        self.generate_metadata_for_changeset_revision()
        if self.metadata_dict:
            repository_metadata = None
            repository_type_class = self.app.repository_types_registry.get_class_by_label(self.repository.type)
            tip_only = isinstance(repository_type_class, TipOnly)
            if not tip_only and self.new_metadata_required_for_utilities():
                # Create a new repository_metadata table row.
                repository_metadata = self.create_or_update_repository_metadata(self.repository.tip(self.app),
                                                                                self.metadata_dict)
                # If this is the first record stored for this repository, see if we need to send any email alerts.
                if len(self.repository.downloadable_revisions) == 1:
                    suc.handle_email_alerts(self.app,
                                            host,
                                            self.repository,
                                            content_alert_str='',
                                            new_repo_alert=True,
                                            admin_only=False)
            else:
                # Update the latest stored repository metadata with the contents and attributes of self.metadata_dict.
                repository_metadata = metadata_util.get_latest_repository_metadata(self.app,
                                                                                   self.repository.id,
                                                                                   downloadable=False)
                if repository_metadata:
                    downloadable = metadata_util.is_downloadable(self.metadata_dict)
                    # Update the last saved repository_metadata table row.
                    repository_metadata.changeset_revision = self.repository.tip(self.app)
                    repository_metadata.metadata = self.metadata_dict
                    repository_metadata.downloadable = downloadable
                    if 'datatypes' in self.metadata_dict:
                        repository_metadata.includes_datatypes = True
                    else:
                        repository_metadata.includes_datatypes = False
                    # We don't store information about the special type of repository dependency that is needed only for
                    # compiling a tool dependency defined for the dependent repository.
                    repository_dependencies_dict = self.metadata_dict.get('repository_dependencies', {})
                    repository_dependencies = repository_dependencies_dict.get('repository_dependencies', [])
                    has_repository_dependencies, has_repository_dependencies_only_if_compiling_contained_td = \
                        repository_util.get_repository_dependency_types(repository_dependencies)
                    repository_metadata.has_repository_dependencies = has_repository_dependencies
                    if 'tool_dependencies' in self.metadata_dict:
                        repository_metadata.includes_tool_dependencies = True
                    else:
                        repository_metadata.includes_tool_dependencies = False
                    if 'tools' in self.metadata_dict:
                        repository_metadata.includes_tools = True
                    else:
                        repository_metadata.includes_tools = False
                    if 'workflows' in self.metadata_dict:
                        repository_metadata.includes_workflows = True
                    else:
                        repository_metadata.includes_workflows = False
                    repository_metadata.missing_test_components = False
                    self.sa_session.add(repository_metadata)
                    self.sa_session.flush()
                else:
                    # There are no metadata records associated with the repository.
                    repository_metadata = self.create_or_update_repository_metadata(self.repository.tip(self.app),
                                                                                    self.metadata_dict)
            if 'tools' in self.metadata_dict and repository_metadata and status != 'error':
                # Set tool versions on the new downloadable change set.  The order of the list of changesets is
                # critical, so we use the repo's changelog.
                changeset_revisions = []
                for changeset in repo.changelog:
                    changeset_revision = str(repo.changectx(changeset))
                    if metadata_util.get_repository_metadata_by_changeset_revision(self.app, encoded_id, changeset_revision):
                        changeset_revisions.append(changeset_revision)
                self.add_tool_versions(encoded_id, repository_metadata, changeset_revisions)
        elif len(repo) == 1 and not self.invalid_file_tups:
            message = "Revision <b>%s</b> includes no Galaxy utilities for which metadata can " % \
                str(self.repository.tip(self.app))
            message += "be defined so this revision cannot be automatically installed into a local Galaxy instance."
            status = "error"
        if self.invalid_file_tups:
            message = tool_util.generate_message_for_invalid_tools(self.app,
                                                                   self.invalid_file_tups,
                                                                   self.repository,
                                                                   self.metadata_dict)
            status = 'error'
        return message, status

    def set_repository_metadata_due_to_new_tip(self, host, content_alert_str=None, **kwd):
        """Set metadata on the tip of self.repository in the tool shed."""
        error_message, status = self.set_repository_metadata(host, content_alert_str=content_alert_str, **kwd)
        return status, error_message
